Semiconductor memory and method for operating a semiconductor memory

1. A semiconductor memory comprising: a plurality of read amplifiers; a plurality of pairs of complementary bit lines, each bit line of each pair of complementary bit lines having a first end connected to an associated one of the plurality of read amplifiers and a second end; a plurality of binary state memory cells coupled to each of the bit lines; and a plurality of first switching elements, each first switching element coupled to an associated bit line such that at least a first part of the associated bit line is selectively electrically decoupled from the associated read amplifier when reading and/or refreshing a selected binary state memory cell coupled to the associated bit line while a second part of the associated bit line remains electrically coupled to the associated read amplifier, wherein a first non-zero portion of the plurality of binary state memory cells is coupled the first part of the associated bit line and wherein a second non-zero portion of the plurality of binary state memory cells is coupled to the second part of the associated bit line.

2. The semiconductor memory of claim 1 , further comprising: a plurality of voltage references; and a plurality of second switching elements coupled between an associated bit line at the second end thereof and the associated voltage reference for selectively coupling and uncoupling the associated bit line to the voltage reference.

3. The semiconductor memory of claim 2 , wherein the plurality of read amplifiers and the plurality of voltage references are arranged to form two columns of alternating read amplifiers and voltage references, and wherein the plurality of bit lines are arranged in rows coupled to the two columns such that adjacent bit lines are connected to the associated read amplifier and associated voltage reference at opposite ends thereof.

4. A semiconductor memory comprising: a plurality of read amplifiers; a plurality of pairs of complementary bit lines, each bit line of each pair of complementary bit lines having a first end connected to an associated one of the plurality of read amplifiers and a second end; a plurality of binary state memory cells coupled to each of the bit lines; a plurality of first switching elements, each first switching element coupled to an associated bit line such that at least a part of the associated bit line is selectively electrically decoupled from the associated read amplifier when reading and/or refreshing a selected binary state memory cell coupled to the associated bit line; and wherein a first half of the plurality of binary state memory cells are coupled to the associated bit line between the first end thereof and the associated first switching element and a second half of the plurality of binary state memory cells are coupled to the associated bit line between the second end thereof and the associated first switching element.

5. The semiconductor memory of claim 4 , further comprising: a plurality of voltage references; and a plurality of second switching elements coupled between an associated bit line at the second end thereof and the associated voltage reference for selectively coupling and uncoupling the associated bit line to the voltage reference.

6. The semiconductor memory of claim 5 , wherein the plurality of read amplifiers and the plurality of voltage references are arranged to form two columns of alternating read amplifiers and voltage references, and wherein the plurality of bit lines are arranged in rows coupled to the two columns such that adjacent bit lines are connected to the associated read amplifier and associated voltage reference at opposite ends thereof.

7. The semiconductor memory of claim 4 , wherein the second end of each bit line is open.

8. A semiconductor memory comprising: a plurality of read amplifiers; a plurality of pairs of complementary bit lines, each bit line of each pair of complementary bit lines having a first end connected to an associated one of the plurality of read amplifiers and a second end; a plurality of binary state memory cells coupled to each of the bit lines; a plurality of first switching elements, each first switching element coupled to an associated bit line such that at least a part of the associated bit line is selectively electrically decoupled from the associated read amplifier when reading and/or refreshing a selected binary state memory cell coupled to the associated bit line; and wherein, for each pair of the plurality of pairs of complementary bit lines, one of the complementary bit lines is directed in a first direction away from the associated read amplifier and the other of the complementary bit lines is directed in a second direction away from the associated read amplifier, opposite from the first direction.